STIX Version 1.2.1. Part 9: Course of Actiondocs.oasis-open.org/cti/stix/v1.2.1/csprd01/part9-coa/... · 2015. 11. 6. · stix-v1.2.1-csprd01-part9-coa 06 November 2015 Standards
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STIX Version 1.2.1. Part 7: Threat Actor. http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part7-threat-actor/stix-v1.2.1-csprd01-part7-threat-actor.html
STIX Version 1.2.1. Part 8: Campaign. http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part8-campaign/stix-v1.2.1-csprd01-part8-campaign.html
STIX Version 1.2.1. Part 9: Course of Action (this document). http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part9-coa/stix-v1.2.1-csprd01-part9-coa.html
STIX Version 1.2.1. Part 10: Exploit Target. http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part10-exploit-target/stix-v1.2.1-csprd01-part10-exploit-target.html
STIX Version 1.2.1. Part 11: Report. http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part11-report/stix-v1.2.1-csprd01-part11-report.html
STIX Version 1.2.1. Part 12: Default Extensions. http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part12-extensions/stix-v1.2.1-csprd01-part12-extensions.html
STIX Version 1.2.1. Part 13: Data Marking. http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part13-data-marking/stix-v1.2.1-csprd01-part13-data-marking.html
STIX Version 1.2.1. Part 14: Vocabularies. http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part14-vocabularies/stix-v1.2.1-csprd01-part14-vocabularies.html
STIX Version 1.2.1. Part 15: UML Model. http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part15-uml-model/stix-v1.2.1-csprd01-part15-uml-model.html
UML Model Serialization: http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/uml-model/
Related work: This specification replaces or supersedes:
STIXTM
1.2 Course Of Action Specification (v1.2) https://github.com/STIXProject/specifications/blob/version1.2/documents/pdf%20versions/STIX_COA_Draft.pdf
This specification is related to:
CybOX[TM]
Version 2.1.1. Work in progress. https://www.oasis-open.org/committees/tc_home.php?wg_abbrev=cti-cybox
CybOX[TM]
2.1. https://cyboxproject.github.io/
Abstract: The Structured Threat Information Expression (STIX) framework defines nine core constructs and the relationships between them for the purposes of modeling cyber threat information and enabling cyber threat information analysis and sharing. This specification document defines the Course of Action construct, which conveys specific measures to be taken to address threats whether they are corrective or preventative to address Exploit Targets, or responsive to counter or mitigate the potential impacts of Incidents.
Status: This document was last revised or approved by the OASIS Cyber Threat Intelligence (CTI) TC on the above date. The level of approval is also listed above. Check the “Latest version” location noted above for possible later revisions of this document. Any other numbered Versions and other technical work produced by the Technical Committee (TC) are listed at https://www.oasis-open.org/committees/tc_home.php?wg_abbrev=cti#technical.
TC members should send comments on this specification to the TC’s email list. Others should send comments to the TC’s public comment list, after subscribing to it by following the instructions at the “Send A Comment” button on the TC’s web page at https://www.oasis-open.org/committees/cti/.
For information on whether any patents have been disclosed that may be essential to implementing this specification, and any offers of patent licensing terms, please refer to the Intellectual Property Rights section of the TC’s web page (https://www.oasis-open.org/committees/cti/ipr.php).
When referencing this specification the following citation format should be used:
[STIX-v1.2.1-COA]
STIX[TM]
Version 1.2.1. Part 9: Course of Action. Edited by Sean Barnum, Desiree Beck, Aharon Chernin, and Rich Piazza. 06 November 2015. OASIS Committee Specification Draft 01 / Public Review Draft 01. http://docs.oasis-open.org/cti/stix/v1.2.1/csprd01/part9-coa/stix-v1.2.1-csprd01-part9-coa.html. Latest version: http://docs.oasis-open.org/cti/stix/v1.2.1/stix-v1.2.1-part9-coa.html.
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STIX[™], TAXII[™], AND CybOX[™] (STANDARD OR STANDARDS) AND THEIR COMPONENT PARTS ARE PROVIDED “AS IS” WITHOUT ANY WARRANTY OF ANY KIND, EITHER EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, ANY WARRANTY THAT THESE STANDARDS OR ANY OF THEIR COMPONENT PARTS WILL CONFORM TO SPECIFICATIONS, ANY
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ThreatActor, and Report. This document serves as the specification for the STIX Course of Action data model.
As defined within the STIX language, a Course of Action (COA) characterizes a specific measure that could be taken in regard to a threat. These measures may be corrective or preventative to address Exploit Targets, or responsive to counter or mitigate the potential impacts of Incidents. They are typically cyber in nature but are not explicitly constrained to be so. More specifically, a Course of Action is fundamentally a characterization of the action through a title, description, type and structured observable parameters as well as contextual information such as objective, likely impact, likely cost, estimated efficacy and its relevant stage in cyber threat management (e.g., remedy of an ExploitTarget or response to an Incident).
In Section 1.1 we discuss additional specification documents, in Section 1.2 we provide document conventions, and in Section 1.3 we provide terminology. References are given in Section 1.4. In Section 2, we give background information necessary to fully understand the Course of Action data model. We present the Course of Action data model specification details in Section 3 and conformance information in Section 4.
1.1 STIX[TM] Specification Documents The STIX specification consists of a formal UML model and a set of textual specification documents that explain the UML model. Specification documents have been written for each of the key individual data models that compose the full STIX UML model.
The STIX Version 1.2.1 Part 1: Overview document provides a comprehensive overview of the full set of STIX data models, which in addition to the nine top-level component data models mentioned in the Introduction, includes a core data model, a common data model, a cross-cutting data marking data model, various extension data models, and a set of default controlled vocabularies. STIX Version 1.2.1 Part 1: Overview also summarizes the relationship of STIX to other languages, and outlines general STIX data model conventions.
Figure 1-1 illustrates the set of specification documents that are available. The color black is used to indicate the specification overview document, altered shading differentiates the overarching Core and Common data models from the supporting data models (vocabularies, data marking and default extensions), and the color white indicates the component data models. The solid grey color denotes the overall STIX Language UML model. This Course of Action specification document is highlighted in its associated color (see Section 1.2.3.3). For a list of all STIX documents and related information sources, please see STIX Version 1.2.1 Part 1: Overview.
Note that all high level concepts have a corresponding UML object. For example, the Course of
Action high level concept is associated with a UML class named, CourseOfActionType.
The ‘italic’ font (with single quotes) is used for noting actual, explicit values for STIX Language properties. The italic font (without quotes) is used for noting example values.
Each STIX data model is captured in a different UML package (e.g., Core package, Campaign package, etc.) where the packages together compose the full STIX UML model. To refer to a particular class of a
specific package, we use the format package_prefix:class, where package_prefix corresponds
to the appropriate UML package. STIX Version 1.2.1 Part 1: Overview contains a list of the packages used by the Course of Action data model, along with the associated prefix notations, descriptions, examples.
Note that in this specification document, we do not explicitly specify the package prefix for any classes that originate from the Course of Action data model.
This specification makes use of UML diagrams to visually depict relationships between STIX Language constructs. Note that the diagrams have been extracted directly from the full UML model for STIX; they have not been constructed purely for inclusion in the specification documents. Typically, diagrams are included for the primary class of a data model, and for any other class where the visualization of its relationships between other classes would be useful. This implies that there will be very few diagrams for classes whose only properties are either a data type or a class from the STIX Common data model. Other diagrams that are included correspond to classes that specialize a superclass and abstract or generalized classes that are extended by one or more subclasses.
In UML diagrams, classes are often presented with their attributes elided, to avoid clutter. The fully described class can usually be found in a related diagram. A class presented with an empty section at the bottom of the icon indicates that there are no attributes other than those that are visualized using associations.
1.2.3.1 Class Properties
Generally, a class property can be shown in a UML diagram as either an attribute or an association (i.e., the distinction between attributes and associations is somewhat subjective). In order to make the size of UML diagrams in the specifications manageable, we have chosen to capture most properties as attributes and to capture only higher level properties as associations, especially in the main top-level component diagrams. In particular, we will always capture properties of UML data types as attributes. For example, properties of a class that are identifiers, titles, and timestamps will be represented as attributes.
1.2.3.2 Diagram Icons and Arrow Types
Diagram icons are used in a UML diagram to indicate whether a shape is a class, enumeration, or a data type, and decorative icons are used to indicate whether an element is an attribute of a class or an enumeration literal. In addition, two different arrow styles indicate either a directed association relationship (regular arrowhead) or a generalization relationship (triangle-shaped arrowhead). The icons and arrow styles we use are shown and described in Table 1-1.
Table 1-1. UML diagram icons
Icon Description
This diagram icon indicates a class. If the name is in italics, it is an abstract class.
This diagram icon indicates an enumeration.
This diagram icon indicates a data type.
This decorator icon indicates an attribute of a class. The green circle means its visibility is public. If the circle is red or yellow, it means its visibility is private or protected.
This decorator icon indicates an enumeration literal.
This arrow type indicates a directed association relationship.
This arrow type indicates a generalization relationship.
1.2.3.3 Color Coding
The shapes of the UML diagrams are color coded to indicate the data model associated with a class. The colors used in the Course of Action specification are illustrated via exemplars in Figure 1-2.
Figure 1-2. Data model color coding
1.2.4 Property Table Notation
Throughout Section 3, tables are used to describe the properties of each data model class. Each property table consists of a column of names to identify the property, a type column to reflect the datatype of the property, a multiplicity column to reflect the allowed number of occurrences of the property, and a description column that describes the property. Package prefixes are provided for classes outside of the Course of Action data model (see Section 1.2.2).
Note that if a class is a specialization of a superclass, only the properties that constitute the specialization are shown in the property table (i.e., properties of the superclass will not be shown). However, details of the superclass may be shown in the UML diagram.
1.2.5 Property and Class Descriptions
Each class and property defined in STIX is described using the format, “The X property verb Y.” For
example, in the specification for the STIX Campaign, we write, “The id property specifies a globally
unique identifier for the Campaign instance.” In fact, the verb “specifies” could have been replaced by any number of alternatives: “defines,” “describes,” “contains,” “references,” etc.
However, we thought that using a wide variety of verb phrases might confuse a reader of a specification document because the meaning of each verb could be interpreted slightly differently. On the other hand, we didn’t want to use a single, generic verb, such as “describes,” because although the different verb choices may or may not be meaningful from an implementation standpoint, a distinction could be useful to those interested in the modeling aspect of STIX.
Consequently, we have chosen to use the three verbs, defined as follows, in class and property descriptions:
Verb STIX Definition
captures Used to record and preserve information without implying anything about the structure of a class or property. Often used for properties that encompass general content. This is the least precise of the three verbs.
Examples:
The Source property characterizes the source of the sighting information.
Examples of details captured include identitifying characteristics, time-related attributes, and a list of the tools used to collect the information.
The Description property captures a textual description of the Indicator.
characterizes Describes the distinctive nature or features of a class or property. Often used to describe classes and properties that themselves comprise one or more other properties.
Examples:
The Confidence property characterizes the level of confidence in the accuracy
of the overall content captured in the Incident.
The ActivityType class characterizes basic information about an activity a
defender might use in response to a Campaign.
specifies
Used to clearly and precisely identify particular instances or values associated with a property. Often used for properties that are defined by a controlled vocabulary or enumeration; typically used for properties that take on only a single value.
Example:
The version property specifies the version identifier of the STIX Campaign data
model used to capture the information associated with the Campaign.
1.3 Terminology
The key words “MUST”, “MUST NOT”, “REQUIRED”, “SHALL”, “SHALL NOT”, “SHOULD”, “SHOULD NOT”, “RECOMMENDED”, “MAY”, and “OPTIONAL” in this document are to be interpreted as described in [RFC2119].
1.4 Normative References
[RFC2119] Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels”, BCP 14, RFC 2119, March 1997. http://www.ietf.org/rfc/rfc2119.txt.
2 Background Information In this section, we provide high level information about the Course of Action data model that is necessary to fully understand the Course of Action data model specification details given in Section 3.
2.1 Course of Action-Related Component Data Models As will be explicitly detailed in Section 3, a STIX Course of Action leverages the Observables data model (as indicated by the outward-oriented arrow) which is defined with the CybOX Language. Figure 2-1 illustrates the relationship between the Course of Action and the other core constructs. As stated in Section 1.1, each of these components is defined in a separate specification document.
Figure 2-1. High level view of the Course of Action data model
In this section, we give a high level summary of the relationship between the Course of Action data model and the other components to which a Course of Action may refer. We also make note of the fact that the Course of Action data model can be self-referential. Other relationships are defined in the specification of the component that they originate from.
Course of Action
The Course of Action data model is self-referential, enabling one Course of Action to reference other Course of Actions that are asserted to be related. Self-referential relationships between Courses of Action may indicate general associativity or can be used to indicate relationships beween different versions of the same Course of Action.
Observable
A STIX Observable (as defined with the CybOX Language) represents stateful properties or measurable events pertinent to the operation of computers and networks. Implicit in this is a practical need for descriptive capability of two forms of observables: “observable instances” and “observable patterns.” Observable instances represent actual specific observations that took place in the cyber domain. The property details of this observation are specific and unambiguous. Observable patterns represent conditions for a potential observation that may occur in the future or may have already occurred and exists in a body of observable instances. These conditions may be anything from very specific concrete patterns that would match very specific observable instances to more abstract generalized patterns that have the potential to match against a broad range of potential observable instances.
Course of Action Data Model The primary class of the STIX Course of Action package is the CourseOfActionType class, which characterizes a cyber threat-relevant course
of action through informative (title and description), formally structured (type and parameter observables) and contextual (objective, efficacy,
impact, cost) properties. Similar to the primary classes of all of the component data models in STIX, the CourseOfActionType class extends a
base class defined in the STIX Common data model; more specifically, it extends the CourseOfActionBaseType base class, which provides
the essential identifier (id) and identifier reference (idref) properties.
The relationship between the CourseOfActionType class and the CourseOfActionBaseType base class, as well as the properties of the
CourseOfActionType class, are illustrated in the UML diagram given in Figure 3-1.
Figure 3-1. UML diagram of the CourseOfActionType class
The property table, which includes property descriptions and corresponds to the UML diagram given in Figure 3-1, is provided in Table 3-1.
All classes defined in the Course of Action data model are described in detail in Section 3.1 through Section 3.4. Details are not provided for classes defined in non-Course of Action data models; instead, the reader is referred to the corresponding data model specification as indicated by the package prefix specified in the Type column of the table.
Table 3-1. Properties of the CourseOfActionType class
Name Type Multiplicity Description
version CourseOfActionVersionType 0..1
The version property specifies the version number of the STIX
Course of Action data model for STIX v1.2.1 used to capture the information associated with the Course of Action.
Title basicDataTypes:BasicString 0..1
The Title property captures a title for the Course of Action and
reflects what the content producer thinks the Course of Action as a
whole should be called. The Title property is typically used by
humans to reference a particular Course of Action; however, it is not suggested for correlation.
Stage stixCommon:
VocabularyStringType 0..1
The Stage property specifies what stage in the cyber threat
management lifecycle this Course of Action is relevant to. Examples of potential stages include remedy and response (these specific values are only provided to help explain the property: they are neither recommended values nor necessarily part of any existing vocabulary). The content creator may choose any arbitrary value or may constrain the set of possible values by referencing an externally-defined vocabulary or leveraging a formally defined vocabulary extending from the
stixCommon:ControlledVocabularyStringType class. The
STIX default vocabulary class for use in the property is ‘COAStageVocab-1.0’.
Type stixCommon:
VocabularyStringType 0..1
The Type property specifies the type of action to be taken.
Examples of potential types include redirection, eradication and public disclosure (these specific values are only provided to help explain the property: they are neither recommended values nor
necessarily part of any existing vocabulary). The content creator may choose any arbitrary value or may constrain the set of possible values by referencing an externally-defined vocabulary or leveraging a formally defined vocabulary extending from the
stixCommon:ControlledVocabularyStringType class. The
STIX default vocabulary class for use in the property is ‘CourseOfActionTypeVocab-1.0’.
Description stixCommon:
StructuredTextType 0..*
The Description property captures a textual description of the
Course of Action. Any length is permitted. Optional formatting is
supported via the structuring_format property of the
StructuredTextType class.
Short_Description stixCommon:
StructuredTextType 0..*
The Short_Description property captures a short textual
description of the Course of Action. This property is secondary and
should only be used if the Description property is already
populated and another, shorter description is available.
Objective ObjectiveType 0..1 The Objective property characterizes the results that this Course
of Action is intended to achieve.
Parameter_Observables cybox:ObservablesType 0..1
The Parameter_Observables property enables the specification
of structured technical parameters to this Course of Action expressed using the CybOX Language. It is intended that the combination of the Course of Action Type and the Parameter_Observables could be used to define unambiguous and potentially automated courses of action.
Structured_COA StructuredCOAType 0..1
The Structured_COA property characterizes an alternative
actionable structured representation for the Course of Action potentially for automated consumption and implementation. Its underlying abstract class MUST be extended to enable the expression of a structured Course of Action.
Impact stixCommon:StatementType 0..1
The Impact property characterizes the estimated impact of applying
a Course of Action to achieve its targeted objective, which includes a
Value property that specifies the level of impact. Examples of
potential levels include high, medium, and low (these specific values
are only provided to help explain the Value property: they are
neither recommended values nor necessarily part of any existing vocabulary). The content creator may choose any arbitrary value or may constrain the set of possible levels by referencing an externally-defined vocabulary. The STIX default vocabulary class for use in the
Value property is ‘HighMediumLowVocab-1.0.’
Cost stixCommon:StatementType 0..1
The Cost property characterizes the estimated cost for applying a
Course of Action to achieve its targeted objective, which includes a
Value property that specifies the level of cost. Examples of potential
levels include high, medium, and low (these specific values are only
provided to help explain the Value property: they are neither
recommended values nor necessarily part of any existing vocabulary). The content creator may choose any arbitrary value or may constrain the set of possible levels by referencing an externally-defined vocabulary. The STIX default vocabulary class for use in the
Value property is ‘HighMediumLowVocab-1.0.’
Efficacy stixCommon:StatementType 0..1
The Efficacy property characterizes a measure of the likely
effectiveness of a Course of Action to achieve its targeted objective,
which includes a Value property that specifies the level of
effectiveness. Examples of potential levels include high, medium, and low (these specific values are only provided to help explain the
Value property: they are neither recommended values nor
necessarily part of any existing vocabulary). The content creator may choose any arbitrary value or may constrain the set of possible levels by referencing an externally-defined vocabulary. The STIX
default vocabulary class for use in the Value property is
‘HighMediumLowVocab-1.0.’
Information_Source stixCommon:
InformationSourceType 0..1
The Information_Source property characterizes the source of
the Course of Action information. Examples of details captured include identitifying characteristics, time-related attributes, and a list of tools used to collect the information.
Handling marking:MarkingType 0..1 The Handling property specifies the appropriate data handling
markings for the properties of this Course of Action. The marking scope is limited to the Course of Action and the content it contains.
Note that data handling markings can also be specified at a higher level.
Related_COAs RelatedCOAsType 0..1 The Related_COAs property specifies a set of one or more other
Course of Actions related to this Course of Action.
Related_Packages stixCommon:
RelatedPackagesRefsType 0..1
The Related_Packages property specifies a set of one or more
STIX Packages that are related to the Course of Action.
DEPRECATED: This property is deprecated and will be removed in the next major version of STIX. Its use is strongly discouraged except for legacy applications.
3.1 CourseOfActionVersionType Enumeration
The CourseOfActionVersionType enumeration is an inventory of all versions of the Course of Action data model for STIX Version 1.2.1. The
enumeration literals are given in Table 3-2.
Table 3-2. Literals of the CourseOfActionVersionType enumeration
Enumeration Literal Description
stix-1.2.1 Course of Action data model for STIX v1.2.1
3.2 StructuredCOAType Class
The StructuredCOAType class enables the specification of an alternative actionable structured representation for the Course of Action
potentially for automated consumption and implementation. The StructuredCOAType class is an abstract class and is intended to be extended
via a subclass to enable the expression of any structured course of actions. STIX has provided support for passing proprietary or externally
defined structured courses of action using the GenericStructuredCOAType class (see STIX Version 1.2.1 Part 10: Exploit Target).
3.3 ObjectiveType Class
The ObjectiveType class characterizes the results that this Course of Action is intended to achieve.
The RelatedCOAsType class specifies a set of one or more other Course of Actions asserted to be related to this Course of Action and therefore
is a self-referential relationship. It extends the GenericRelationshipListType superclass defined in the STIX Common data model, which
specifics the scope (whether the elements of the set are related individually or as a group).
The UML diagram corresponding to the RelatedCOAsType class is shown in Figure 3-3.
Figure 3-3. UML diagram of the RelatedCOAsType class
The property table given in Table 3-4 corresponds to the UML diagram shown in Figure 3-3.
Table 3-4. Properties of the RelatedCOAsType class
Name Type Multiplicity Description
Related_Course of Action
stixCommon:
RelatedCourseOfActionType 1..*
The Related_COA property specifies another Course of Action
associated with this Course of Action and characterizes the relationship between the Courses of Action by capturing information such as the level of confidence that the Courses of
Actions are related, the source of the relationship information, and type of the relationship. A relationship between Courses of Action may represent assertions of general associativity or different versions of the same Course of Action.
4 Conformance Implementations have discretion over which parts (components, properties, extensions, controlled vocabularies, etc.) of STIX they implement (e.g., Indicator/Suggested_COAs).
[1] Conformant implementations must conform to all normative structural specifications of the UML model or additional normative statements within this document that apply to the portions of STIX they implement (e.g., Implementers of the entire TTP component must conform to all normative structural specifications of the UML model or additional normative statements within this document regarding the TTP component).
[2] Conformant implementations are free to ignore normative structural specifications of the UML model or additional normative statements within this document that do not apply to the portions of STIX they implement (e.g., Non-implementers of any particular properties of the TTP component are free to ignore all normative structural specifications of the UML model or additional normative statements within this document regarding those properties of the TTP component).
The conformance section of this document is intentionally broad and attempts to reiterate what already exists in this document. The STIX 1.2 Specifications, which this specification is based on, did not have a conformance section. Instead, the STIX 1.2 Specifications relied on normative statements and the non-mandatory implementation of STIX profiles. STIX 1.2.1 represents a minimal change from STIX 1.2, and in that spirit no requirements have been added, modified, or removed by this section.
The following individuals have participated in the creation of this specification and are gratefully acknowledged:
Participants: Dean Thompson, Australia and New Zealand Banking Group (ANZ Bank) Bret Jordan, Blue Coat Systems, Inc. Adnan Baykal, Center for Internet Security (CIS) Jyoti Verma, Cisco Systems Liron Schiff, Comilion (mobile) Ltd. Jane Ginn, Cyber Threat Intelligence Network, Inc. (CTIN) Richard Struse, DHS Office of Cybersecurity and Communications (CS&C) Marlon Taylor, DHS Office of Cybersecurity and Communications (CS&C) David Eilken, Financial Services Information Sharing and Analysis Center (FS-ISAC) Sarah Brown, Fox-IT Ryusuke Masuoka, Fujitsu Limited Eric Burger, Georgetown University Jason Keirstead, IBM Paul Martini, iboss, Inc. Jerome Athias, Individual Terry MacDonald, Individual Alex Pinto, Individual Patrick Maroney, Integrated Networking Technologies, Inc. Wouter Bolsterlee, Intelworks BV Joep Gommers, Intelworks BV Sergey Polzunov, Intelworks BV Rutger Prins, Intelworks BV Andrei Sîrghi, Intelworks BV Raymon van der Velde, Intelworks BV Jonathan Baker, MITRE Corporation Sean Barnum, MITRE Corporation Desiree Beck, MITRE Corporation Mark Davidson, MITRE Corporation Ivan Kirillov, MITRE Corporation Jon Salwen, MITRE Corporation John Wunder, MITRE Corporation Mike Boyle, National Security Agency Jessica Fitzgerald-McKay, National Security Agency Takahiro Kakumaru, NEC Corporation John-Mark Gurney, New Context Services, Inc. Christian Hunt, New Context Services, Inc. Daniel Riedel, New Context Services, Inc. Andrew Storms, New Context Services, Inc. John Tolbert, Queralt, Inc. Igor Baikalov, Securonix Bernd Grobauer, Siemens AG Jonathan Bush, Soltra Aharon Chernin, Soltra Trey Darley, Soltra Paul Dion, Soltra Ali Khan, Soltra Natalie Suarez, Soltra Cedric LeRoux, Splunk Inc. Brian Luger, Splunk Inc. Crystal Hayes, The Boeing Company Brad Butts, U.S. Bank
Mona Magathan, U.S. Bank Adam Cooper, United Kingdom Cabinet Office Mike McLellan, United Kingdom Cabinet Office Chris O'Brien, United Kingdom Cabinet Office Julian White, United Kingdom Cabinet Office Anthony Rutkowski, Yaana Technologies, LLC The authors would also like to thank the larger STIX Community for its input and help in reviewing this document.